Pressure-regulator.



G. H. BONG.

PRESSURE REGULATOR.

APPLICATION FILED SEPT. z, 1908.

944,255. Patented 1m28, 1909.

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52522773/ Jog FFKCE.

rvGLARIEIQCE HARRY BNG, OF CHICAGO, ILLINOIS.

PRESSURE-REGULATOR.

Application filed; September 2, 1908. Serial No. 451,345.

To all whom tt may concern.

Be it known that I, CLARENCE HARRY Boxe, :a citizen of the United States, and a resident of Chicago, in the county of Cook and State of Illinois, have invented certain new and useful Improvements in Pressure- Regulators,` of which kthe following is a specification. 4

This invention relates to pressure regulators and relates particularly to regulators for automatically controlling or regulating the fluid pressure in mains, conduits, or other receptacles, of fluid supply systems,v as in gas and water mains, air conduits, and the like.

'lhe object of the invention is to provide a pressure regulator for fluid supply systems controlled by the tiuid pressure therein, for automatically maintaining a substantially uniform tluid pressure in said system, under normal conditions, and, preferably, also, for automatically.increasing or decreasing the pressure in said system to a desired maximum or minimum pressure in case of emergency where a relatively high or low pressure is desired` as, for example, to increase the pressure in water mains in case of fire.

A. pressure regulatorof my invention consists of the various features, combinations of features and details of construction hereinafter described and claimed.

In the accompanying drawings, in which my invention is full illustrated- Figure 1 is a sectional View o' my improved pressure regulator. Figs. 2 and 3 are views substan- `tially similar to Fig. 1, showing, respectively, the positions of the operative parts in case of excessive decrease and increase of the fluid pressure in the system. Fig.4 is an enlarged detail View vof the cam for disengaging the lever which operates the valve of the double-acting cylinder; and Fig. 5 is an enlarged detail sectional view of the extension end of said operating lever.

,So far as I am now aware, the broadest field for tli e' use of my improved pressure regulator is in connection with Water Works systems, 'in Y order to maintain a substantiallyV uniform pressurein the mains, say forty pounds, under ordinary conditions of use, and to automatically increase 'the' pressure in the mains to a desired maximum pressure, say eighty pounds, in case of emergency, as in case of lire. For the purpose, therefore, of rendering the accompanying description more specific and definite, l have describedv my'improved regulator as applied for this purpose, the pumps, not shown, being driven by means of an electric motor, 'also not shown. f

Referring noW to the drawings, A desig- Specication of Letters Patent. Patented Da, 28, 1909i@ hates, as a Whole, a controller for the electric motorlor motorswhich drive the fluid sup- Ply pumps, familiar type comprising an electrical contact or contacts mounted on an arm or arms a, said contact or contacts being adapted to be brought successively into engagement with a series of fixed contacts a1 by rotation of the arm a.

Mounted in fixed position adjacent to the controller A, preferably With its axis in the plane of -movement of the arm a and with its axis eccentric to the axis of rotation of,

said arm a, is a double-acting cylinder 1 fitted to Which is a piston 2, the piston rod 3 of which is connectedto lthe armaI of the controller A at a distance from its axis of rotation, preferably by means of a link 4, the opposite 'ends ofwhich are pivotally connected to said piston rod, and to said arm a, respectively, whereby movement of the piston 2 Will operate to turn the con- I troller arm a.

To provide for operating the controller A by hand, when desired,;the link 4 is preferablyV connected to the controller arm a-so that it may be quickly and conveniently disengaged therefrom. "As shown, said link -4 is connected to the controller arm a by said controller being of the,y

means of a transverse slot 5 in one edge of said link lwhich is adapted to engage a pin 6 on said controller arm a.

The cylinder 1 is provided with a Valve chest 7, the interior of which is lconnected with opposite ends of said cylinder by admission ports 8 and 9 which, as shown, are controlled by means of a usual form of slide valve 10, all in a familiar manner. Said cylinder' 1 is also provided at its opposite ends with discharge ports which communicate, respectively, with waste pipes 13 and 14, said Waste pipes being preferably controlled by means of suitable stop cocks 15 and 16, respectively, to provide for regulating the speed With which the piston 2 moves and thus the speed with which the controller arm a is turned and the electric current increased o1' decreased, said stop cocks being preferably so adjusted that the current will be increased and' decreased The valve chest 7 is in open communicaports 8 and 9 is adapted to be automaticallj operated to admit fluid under pressure yto 'one end or the other of the cylinder 1 by means controlled by the iluid'pressure in themain, or what' is the same thing, by the fluid pressure in the header 18, in the following Inanner -Mounted in fixed'position, in operative relation to the valve chest 7 is a cylinder 19, to which is t'ted a piston 20. Communicating with the cylinder 19 atl one side ofthe piston 20, is a pipe 21 through which said cylinder isfinopen communication lwith the main, whereby the portion of said cylinder betweensaid pipe and piston will at all the pipe 21 is secured. .In order to avoid thel times be `filled with fluid under the same pressure as that contained the main. Said cylinder is thus single-acting.A As shown, the pipe. 21 is rigidly secured in and' communicates directly with the header 18, the

opposite-endy thereof being rigidly secured in the head of t-he cylinder 19, said pipe 21 thus forming the support for said cylinder. Secured in the piston 20, is a piston rod 22, the end of which projectsy through the head of the cylinder 19 opposite to that in which formation of an air cushion in the end of the cylinder opposite to that to which the fluid under pressure is admitted, vent holes are preferably 'formed inthe cylinder head throu h which thev piston rod 22 extends,

i where y the Iair pressure therein will always be equal to atmospheric pressure. Bivotally connected to the projecting end of the piston rod 22, is a lever 23 one end of which'is pivotally connected to alixed support, as to a bracket 24 formed'on the cylinder 19, one of said pivotal connections,as shown, the pivotal connection to the bracket 24, comprising a slot 25 which engages a suitable pivot stud 26 on said bracket, thereby providing vfor desired pivotal movement of ysaid lever.

The o osite end of said lever islfree and normalllj7 projects between suitable rigid stops on the valve stem 27 of the valve 10, said valve stem being rigidly connected with the valve-10 and extending through a bearing formed in an end of the valve chest, leakage through said bearing being prevented by means of a suitable packing gland or stuffing box. As shown 4the stops on the valve stem 27 between which the end of the lever 23 extends, consist ofV collars 28 and 29 rigidly secured to said valve stem preferably 1n such manner as to be adjustable lengthwise thereof, as by means of yset screws. lIn

lorder to render the device more sensitive, the

thatin which it is adapted to moveunder the influence of a fluid pressure applied to the piston 20 by a force, preferably substaiitiallyvconstant, 'as a spring' or a weight. As shown, said force consists of a coil spring 30, one end of which is connected to saidklever 23 and the other end to a suitable fixed support, as a lug 31 on the cylinder 19, To provide for adjusting the tension of said spring and thus the force applied to said lever opposed to the action of the piston 20 thereon, said spring 30is preferably connected to the lug 81 by means of a screw 82 connected directly to said spring and threaded to a suitable hole or opening in said lug 31, said screw being preferably connected to said spring by means of a swivel joint to providel for e turning the same relatively to said spring. Threaded to the screw 32 at the side of the lug 31 opposite to the spring 30, is a lock nut and secured to the end of said screw is a suitable hand wheel for conveniently turning the saine. of the device, the adjustment of the spring 3() is such that it will at 'all times be under tension and the stops 28 and 29 are so positioned on the valve stem` 27, that with a desired normal pressure in the main, the free end of the lever 28 will be between the stops 28 and 29 but out of Contact with both thereof, the relation being preferably such ,that said lever will extend in a directionsubstantially 'atiright'angles to lthe piston rod The relation is such, also, that under the iniuence of the fluid pressurein the cylinder In the operation-r 1l) andthe spring 30, the lever 23' acting 'on the stops 28 and29 will have capacity for movementsuflicient to impart movement to the valve 10 to open and close both of the admission ports 8 and 9 ofthe cylinder 1.

lViththe described construction,'it is obvious that, with a desired predetermined normal fluid pressure in the V1mi`ir'1` t.he valve 1.0 will be in central position is toclose both admission ports y8 and 9"o'fftlio cylinder 1 andl that the free 'end ofthe lever 23`will be out of'contaet with both stops 28 and 2S) on the valve stem 27'. lVhen. however, from any cause, thefluid pressure in the main cxceeds normal pressure., ya,fluid pressure in excess of normal will be at once exerted on the piston y20 in the cylinder 19 which will operateto move the lever 23 pivotall against the force of the 'spring 30 and wi l cause it to contact with the stop 28 on the valve stem 27 and thereby impart movement to the valve l0 sutlicient to open the admission port 8 of the cylinder 1, whereupon fluidi-luder pressure will flow into the corresponding end of the cylinder l, which will operate, in an obvious manner, to `im part movementv to the piston 2 therein, which, through the piston rod 3 and linka, will operate to turn the controller' arm a, the relation being such that the movement imparted to said controller arm `will operate to reduce the current supplied to the motor which drives the pump. Thereupon the speed of the motor or motors willibe reduced and the quantity of `fluid supplied to the mains by the pumps reduced, thereby causing the fiuid pressure in the main to fall. As the pressure in the main falls the tension of the spring 3() will operate to move the lever 23 in a direction to engage the stop 29 and through it to impart. moven'lent to the valve 10 in a direction to close the port 8, which movement will continue until the pressure in the main again becomes normal, at which time the port 8 will have been fully closed. Again,v assume that from some cause, the pressure in the main falls somewhat below normal. Thereupon the pressure on the piston 20 will be reduced so that the spring 30 will impart pivotal movement to the lever 23 to move the valve l0 in thedirection to open the admission port of the cylinder 1, whereupon fluid under pressure will flow from the valve chest 7 into the end of the cylinder l with which said admission port 9 communicates, and will impart movement to the piston 2 to turn the controller arm a in a direction to increase4 the electrical current supplied to' increases, the pressure on the piston 20 will increase and will operate to move the lever 23 toward normal, which? movement will continue until said lever reaches its normal position, in attaining which it will have cngaged the stop 28 and thus moved4 the valve 1() sufficiently to close the admissionport 9,

in which position it will remain until the fluid pressure in the main again varies from normal.

To provide for an automatic increase of the fluid pressure in the system in case of emergency, as the water pressure in the mains of a water works system in case of fire, means are provided for automatically diseugaging the lever 23 from the stops 28 and 29, by a decrease in pressure in the main below the normal, due to a large excessive use of water above normal, whereby the lever 23 will rst engage the stop 29 to impart movement to the valve 10 to fully open the admission port 9, whereby the speed of the .motors will be increased to full speed, corresponding to a desired. maximum pressure in the main, and will then be retracted lfrom between said stops 28 and 29 to permit pivotal movement of said lever 23 without contacting with either of said stops 28 or 29.

As shown, the means for this purpose are as ollows:-Slidably mounted at. the free end of the lever 23, so as to form an extension thereof, is an extension bar 33, which isA held normally at the limit of its extension by means of a spring 34 applied to the rear end thereof, movement of said extension bar under the influence of said spring being limited by means of a suitable stop, as shown, by a pin 35 secured in said extension barwhich engagesv a slot 3G formed in the lever 23. Retraction of the extension bar 33, when the lever 23 reaches its-designed lowermost position, is effected by engagement of the pin 35 which projects beyond the side of the lever 23, with a fixed cam 37, said cam'being downwardly in clined away from the stops 28 and l29 so that, as th'e pin rides down the same, as the lever 23 is turned down bv the sprintf 30, the extension bar 33 will be retracted trom between the stops 28 and 29. As previously explained, however, beforethe extension bar 33 is thus retracted, the valve 10 will have been movedso as to open the port 9, which will operate to turn on and increase the speed of the motors and pumps and thus to increase the quantity of `water supplied to f the main and the fluid pressure in said main.

As the Huid pressure in the mains increases, movementwill be imparted to the lever 23 under the influence of the piston 20 and to prevent rengagement of the extension bar` 33 with the stops 28 and 29, a pivoted shunt cam 38 is provided, the free end of said shunt cam being held normally in contact with the fixed cam 37, by means of a spring 39 applied thereto, the relation being such that, when the pin 35 is in engagement with the shunt cam 38, the extension bar 33 will be held in retracted position out of engagement with the stops 28 and 29. The relative positions of the fixedV cam 37 and of the shunt cam 38 are such that, when the extension bar 33 is extended, the pin 35 will clear the shunt cam 38, but will engagethe fixed lcam 37.

With thendescribed construction, excessive pivotal movement of the lever 23 under the influence of the spring 30 will cause the pin 35 to engage the fixed cam 37, thus retracting the extension bar The shunt cam 38 being yieldingly supported -by the spring 39 applied thereto, will permit the pin 35 to pass said shunt cam which will be returned to its normal position as soon as said pin passes out of engagement-with the same, so

as to beengaged by said pin 35 as the lever 23 moves under the influence -of the piston ,20, as the pressure in the mains again increases. The shunt cam 38 is vof such length that it will operate to hold the extension bar 33 in retracted position until it has passed t-he stop 28, land will then release said extension bar, allowing it to resume its normal position. During all of this -time the valve' l0 has been in position corresponding to open position of the port 9 with the motorsand pumps running at full speed.`

When the liuidpressure in the mains exceeds a desired maximum pressure, movement is adapted to be imparted tothe valve 1.0 to

close the port. 9 and open the port 8 -by contac't of the free end of the lever 23 with a stop l10n the valve stem 27, lthe operation being substantially the same as when said' lever 'contacts with `thestops 28 and 29.

vWhen the fluid pressure in the mains again becomes normal, rengagement of the lever.

23 with the stops 28 and 29 is effected by suitable means. As shown, a cam surface 42 is formed on the st-op 28 with which the end of the extension bar 33 is adapted to engage, as thelever 23 moves under the influence of the spring 30, so as to force said extension bar 33 rearward until it passes said stop 28, whereupon it will at oncefbe forced outwardly into its normal position between said stops 28 and'29. p In order to render my improved regulator more sensitive, thatl is, so that yit will respond to slight variations of pressure in the sys tem, when the Huid contained in the system is inelastic, as water, I preferably provide a. cushion to break or relieve the rigid rcsistance of the inelastic fluid acting on the piston 20. As shown, I employ an ai-r chamber 43 which communicates with the cylintric motor. 'Also, while, for purposes oi" der lS),.being shown as connected directly to the supply pipe 21 of the cylinder 19.

fhile I have herein described my vinvention as applied to an yelectric lnotor, it may equally well be applied to the throttle valve ot' a steam engine, so as to control thespeed of the engine,` ink substantially the' same manner-'as it controls the speed of the elecconcrete illustration, I have described my pressure regulator as applied for regulating the pressure in water mains. it may obviously-be equally well applied for regulating the pressure in gas mains, air conduits, or other receptacles.

I claim l.k In a pressure regulator for a fluid supply system,'the combination with a speed-' controlling device for a fluid supply motor, of means for automatically operatingsaid speed-controlling device Controlled `by the fluid pressure, whereby the speed of the motor will beincreased as the pressure falls,

yand vice versa, and means rendered operative by an excessive initial variation of the fluid pressure from' normal for disengaging ksaid means for so controlling said motor speed-controlling device, thereby providing for an excessive final variation of the fluid upressure opposite to the initialv excessive variation'. l

2. In a pressure regulator for alli-uid sup-- ply system, the eombinationwith a speedcontrolling device for the fluid supply'moftor, of means for automatically operating ply system, the combination With a speedcontrolling'device lfor the fluid 4supply mo-A tor, o f-Y adjustable means for automatically operating said speed-controlling device controlled vby the fluid pressure,wher'eby the speed of the motor will be-increased as the pressure falls, and vice versa, and-adjustable means rendered operative by an excessive initial variation of the fluid` pressure from normal for disengaging said means for so controlling said motor speed-controlling device, thereby providing foran excessive final variation of the fluid pressure to the initial excessive variation. .y

' 4. In a pressure regulator for a fluid sup- `ily system, lthe combination with a Spee controlling device for the fluid supply motor,

of means for operatingsaid speed-control v ling device controlled by the fluid pressure, whereby the speed of the motor will be increased as the pressure falls, and vice versa, said means comprising a-doubleacting cylinder, comprising a valve chest and a valvey therein, said cylinder being provided with admission ports controlled by said valve and with discharge ports, a pipe adapted for connecting the valve chest with said fluid sys'- tem, a piston in said cylinder, operativeconnection between said piston and the motor speed-controlling device,a valve stem rigidly secured tothe valve of said cylinder, a single acting cylinder,l a piston therein, a pipe adapted to -connect said cylinder with said fluid system atl one side of the piston therein, a piston vrod secured in said piston, a lever pivotally connected to said piston rod apd to a fixed support, means adapted for' ae senaat j tuating said lever against the force of the .fluid pressure on said piston and stops on the stein of' the valve of the double-acting cylinder With which the free end of said pivoted lever engages.

ln a pressure regulator f'or a fluid supply system, the combination With a speed*- controlling device for the fluid-supply motor, of' means for operating said speed-controlling device controlled by the fluid pressure, whereby the speed of the motor Will be increased as the pressure falls, and vice versa, said means comprising a double-acting cylinder, comprising a valve chest, a valve therein, provided with admission ports controlled by said valve, and discharge ports, a pipe adapted for connecting the valve chest with the receptacle of said fluid system, a piston in said cylinder, operative connection between said piston and the Amotor speedcontrolling device, a valve stem rigidly secured to the valve of said cylinder, a single acting cylinder, a piston therein, a pipe adapted to connect said cylinder with the receptacle of said' fluid system at one side of the piston therein, a piston rod secured in said piston, a lever pivotally connected to lsaid piston rod and to a fixed support, means adapted for actuating said lever against the foi-ce of said piston, and adjustable stops on the stom of the valve of the double-acting cylinder with which the free end of said pivoted lever engages.

ln a pressure regulator for a fluid supply system, thc combination With a speed-l controlling device for the fluid supply motor, ofmeans for operating said speed-controlling device controlled by the fluid pressure, whereby the speed of the motor will be increased as the pressure f'alls, and vice versa, ysaid means comprising a double-acting cylinder, comprising a valve chest, a valve therein, provided with admission ports controlled by said valve, and discharge ports, a pipe adapted for connecting the valve chest with the receptacle of said fluid system, a piston in said cylinder, operative connection between said piston and the motor speedcontrolling device, a valve stem rigidly secured to the valve of said cylinder, a single 'acting cylinder, a piston therein, a pipe adapted to connect said cylinder with the receptacle of said fluid system lat one side ofthe piston therein, an air chamber which communicates with the closed end of said cylinder, a piston rod secured in saidpiston, a lever pivotally connected to said piston rod and to a fixed support, means adapted for actuating said lever against the force of said piston, and adjustable stops on the stem of the valve of the double-acting cylinder with which the free end of said `pivoted lever engages.

7. ln a pressure regulator for a Huid supply system, the combination with a speed- I controlling device for the fluid supply motor,

of means for operating said speed-controlling device controlled by the fluid pressure, whereby the speed of the motor will beincreased as the pressure falls, and vice versa, said means comprising a double-acting cylinder, comprising a valve chest, a valve therein. provided with both admission port-s controlled by said valve, anddischarge ports, a pipe adapted for connecting the valve chest with the receptacle of said fluid system, a piston in said cylinder, operative connection between said piston and the motor speed-controlling device, a valve stein rigidly secured to the valve of said cylinder, a single-acting cylinder, a piston therein, a pipe adapted to connect said cylinder with the receptacle of said fluid'systein atone side of the piston therein,va piston rod secured in said piston,`a lever pivotally connected to said piston rod and to a fixed support, a spring or equivalent means applied to said lever adapted for actuating the saine against the force of said piston, and stops on the stem of the valve of the double-actingcylinder with which the free end of said pivoted lever engages. j

8. In a pressure regulator for a fluid supply system, the combination with a speedcontrolling device for the fluid supply inotor, of means for operating said speed-controlling device controlled by the fluid pressure, whereby the speed of the motor will be increased as the pressure falls, and vice versa, said means comprising a doubleacting cylinder, comprising a valve chest, a valve therein, provided with both admission ports controlled by said valve, and discharge ports, a pipeadapted for connecting the valve chest with the receptacle of said fluid system, a piston in said cylinder, operativi` connection between said piston and the m0- tor speed-controlling device, a valve stein rigidly secured to the valve of said cylinder, a single-acting cylinder, a piston therein, a pipe adapted to connect said cylinder with the receptacle of said fluid' system at one side of the piston therein, a piston rod secured in said piston, a lever pivotally connected to said piston rod and to a fixed support, a spring or its equivalent applied to said lever adapted for actuating the same against the force'of' said piston, means for varying the tension of said spring and stops on the stem of. the valve of the double-acting cylinder with Which the free end of said pivoted leverengages.

9. In a pressure regulator for a fluid supply system, the combination with a speedcontrolling device for'the fluid supply niotor, of means for automatically operatingy ,comprising a double-acting cylinder, comprising a valve chest, a valve therein, and

provided With admission ports controlled byv said valve, and With discharge ports, a pipe adapted for connecting thel valve chest Wlth said fluid system, a piston in said. cylinder, operative connection between sald piston and the motor speed-controlling device, a

`valve stem rigidly secured to the valve of said cylinder, a single-acting cylinder, a pistonv therein, a pipe adapted toc'onnect said piston ,with said fluid system at one side of the piston therein, a piston rod secured in` said piston, and a lever pivotally connected to said piston rod and to a fixed support, means adapted for actuating said lever against the force of the fluid pressure.y

on -said piston, stops on the stem of t e valve of the double-acting cylinder With'vvhich the free end of' said pivoted lever engages, and means for disengaging said lever from said stops to permit excessive variation of the fluid pressure in said fluid system, said means comprising 'an extension bar slidably mounted at the f'ree end of said lever, a spring applied thereto adapted to maintain the same normally extended, a cam, engagement of which with said extension bar -to v'retract the same is vadapted to be effected by a predetermined excessive movement of said lever beyond its movement inmaintaining normal control, and a shunt cam adapted to maintain said extension bar retracted.

10. In a pressure regulator for a fluid supply system, the'combination with a speedcontrolling device for the fluid supply motor, of means for automatically operating said speedcontrolling device controlled by the fluid pressure 1n said system, sa1d means vcomprising a double-acting cylinder, compr1s1ng a valve chest, a valve therein, andprovided with admission ports controlled y said valve, and with discharge ports, a pipe adapted' for connectingthe valve chest with said fluid system, a piston in said cylinder, operative conncctionvbetween said piston and the motor speed-controlling device,

a valve stem rigidly secured to the valveof' said cylinder, asingle-acting cylinder, a piston therein, a pipe adapted to connect said piston With said fluid system at 011e side of' the piston therein, a piston rod secured in said piston, and a lever pivotally connected to -said piston rod and to a fixed support, means yadapted for actuating said lever against the forcefof the fluid pressure on saidpiston', stops on the stem of the valve of the double-acting cylinderwith which the free end of said pivoted lever engages,

and means for disengaging said lever fromsaid stops to permit excessive variation of the fluid pressure in said fluid system,` said means comprising an extension bar slidably mounted at the free end of said lever, a spring applied thereto adapted to maintain the same normally; extended, a cam, engagej ment of which with said extension bar to -retract the same is adapted to be eected by a predetermined excessive movement of said lever beyond its movement in maintaining normal control, and a shunt 'cam adaptedto maintain lsaid extension bar retracted until its free end has passed the normaljcontrol-stops on the stem of' the valve of' the double-acting cylinder, and an emerger'icy stop on said valve stem adapted to be engaged'bythe free end of' said lever when extended.

11. In a pressure regulator for a fluid supply system, the combination with a speedcontrolling device for the fluid supply motor, of means` for automatically operating '.said speed-controlling device controlled by the fluid pressure in said system, said means comprising a double-acting cylinder, comprising a valve chest, a valvetherein, and provided with admission ports controlled by said valve, andsvith discharge ports, a pipe' adapted for connecting the valve chest with said fluid system, a pistonA in said cylinder, operative connection between said piston and the motor speed-controlling device, a valve stem rigidlyrsecured to the valve'of said cylinder, a single-acting cylinder, a piston therein, apipe adapted to connect said piston with said fluid system at one side of the piston therein, a piston rod securedrin said piston, and a lever pivotally connected to said piston rod and toa fixed support, means adapted for actuating said lever against the force of the fluid )ressure 4on said piston, stops on the stem ofl the valve of the doubleacting cylinder With Which the free end of said pivoted lever engages, and means for disengaging said lever. from said stops to permit excessive variation of the fluid pressure in said fluid system, said means comprising an extension bar slidably mounted at v the free end of said lever, a spring applied valve stem adapted to be engaged by the free end of said lever When extended.

12. In a pressure regulator for a fluid supply system, thc combination with a speedcontrolling device for the fluid supply 'motor, of means for automatically operating said speed-controlling device controlled by the fluid pressure in said system, said means comprising a double-acting cylinder, comp prismg a yvalve chest, a valve vtlurein, and v provided With admission ports controlled by said valve, and with discharge ports, a pipe adapted for said fluid system,

therein, a pipe adapted to connect said piston with said fluid system at one. side of the piston therein, a piston rod secured in said piston, and a lever pivotally connected to said piston rod and to a fixed support, means adapted for actuating said lever against the force of the fluid pressure on said piston, stops on the stem of the valve of the doubleacting cylinder with ywhich the free end of said pivoted lever engages, and means for disengaging said leverfrom said stops to permit excessive variation of the fluid pressure in said fluid system, said means comprising an extension bar slidably mounted at the free end of' said lever, a spring appliedl thereto'adapted to maintain the same normally retracted, a pin secured therein, said lever being provided with a slot with which said pin engages, a cam, engagement of which ,with the pin in .said extension bar to retractsaid extension b ar is adapted to be effected by a predetermined excessive movement of said llever beyond its movement in maintaining normal control, and a shunt cam adapted to maintain said extension bar retracted.

13. ln' a pressure regulator for a fluid supply system, the combination with a s]naalleontrolling device for the fluid supply motor, of means for automatically operating said speed-controlling device controlled by the fluid pressure in said system, said means comprising a double-acting cylinder, comprising a valve chest, a valve therein, and provided with admission ports controlled by Haidlvalve, and with discharge ports, a pipe adapted for connecting the valve chest with said fluid system, operative connection between said piston and themotor speed-controlling device, a valve stem rigidly secured to the valveof said `cylinder, a single-acting cylinder, apiston therein', a pipe adapted to connectsaid piston therein, a piston rod secured in said piston. and a lever pivotally connected to said piston rod and to a fixed support, means adapted for actuating l(said lever against the force of the fluid pressure on said piston, stops on the stem of the valve of the double-acting cylinder with which the free end of said pivoted lever engages, and means for disengaging said lever from said stops to permit excessive variation of the fluid pressure in said fluid system, said means comprising an extension bar slidably mounted at' the free end of said lever, a spring applied thereto. adapted to maintain the same normally extended, a cam, engagement of which with said extension bar to retract t'the same is adapted to be efl'ected a piston in said cylinder,

by a predetermined excessive movement of said lever beyond its movement in maintaining normal control,and a pivoted shunt cam adapted to maintain said extension bar retracted, the free end of said shunt cam projecting into the path of tra-vel of the part of said extensionbar which engages the retracting cam, the relation being such that the movement of said lever to effect full retraction of said` extension bar will cause a part of said lever to pass said shunt caln so as to beV engaged thereby on thereturn movement of said lever.

14. In a pressure regulator for a fluid supply system, the colnbination with a speedcontrolling device for the fluid supply mo-- tor, of means for automatically ope ating said speed-controlling device controlled by the fluid pressure in said systeln, said means comprising a double-acting cylinder, comprising a valve chest, a valvetherein, and provided with admission ports controlled by said valve, and Withdischarge ports, a pipe adapted for connecting the valve chest With said fluid system, a piston in said cylinder, operative connection between said piston and the motor speed-'controlling device, a valve stem rigidly secured to the valve of said cylinder, a single-acting cylinder, a piston therein, a pipe adapted to connect said piston with said fluid system at one side ofthe piston therein, a piston rod secured in said piston, and a lever pivotally connected to said piston rod and to a fixed support, means adapted for actuating said level' againstthe force of the fluid pressure on said piston, stops on the stem of the valve of thevdouble-acting cylinder with which the free end of said plvoted lever engages, and means for dis-engaging said lever from said sto-ps to permit excessive variation of the fluid pressure inA said 'fluid system, said means comprising an extension bar slidably mounted at the free end of said lever, a spring applied thereto adapted to maintain the same' normally extended, a cam, engagement of Which'with said extension bar to retract the same is adapted to be effected by a predetermined excessive movement of said lever beyond its movement in maintaining normal control, and a pivoted shunt ment of said lever, anda spring applied to said shunt cam adapted to maintain the same normally in position to engage said extension bar.

`15. ln av pressure regulator for a fluid suppl-y' system, I, the combination with a speed-controlling device `for t-he fluid supply motor, of meansforautomatically operating said speed-controlling device controlled by the fluld pressure in said system, said means comprising a-double-acting cylinder, comprising a valvechest, a Avalve therein, and provided -with admission ports controlled by said valve, and with discharge ports,r a pipe adapted' for connecting the valve chest with said'fluid system, a piston in said cylinder, Voperative connection between said piston and the motor speed-controlling device, a valve stem rigidly secured to the valve of said cylinder, a single-acting cylinder, a piston therein, a pipe adapted to connect said piston with said fluid system at one side ofthe piston therein, a piston rod lsecured in said piston, and a lever pivotally connected to said piston yrod and to a fixed support, means adapted for actuating vsaid ylever against the force of the fluid pressure on said piston, stops on the stem of the valve of the double-acting cylinder with which the free end of said pivot-ed lever engages, and means for disengaging said lever from said stops to permit excessive variation of the fluid pressure in said fluid system, said means comprising an extension bar slidably mounted at the free end of said lever, a spring applied thereto adi ted to maintain the same normally extended), a cam, engagement, of which with said extension bar to retract the same is adapted to be" effected by a predetermined excessive movement of said lever beyond its movelnent in maintaining normal control, and a shunt cam adapted to maintain said extension bar retracted until its free end has passed the Inormal controlstops on the stem of the valve of the doubleacting cylinder, an emergency stop 011 said valve stem ada ted to be engaged by the free end of said) lever when extended, and

means'for effecting rengagement of said lever with the normal control stops as said lever moves away from said emergency stops.

16.`In a pressure regulator for a luid .supply system, the 'combination with a speed-controlling device for the fluid sup-` ply motor, of means for automatically operating said speedcontrolling device controlled by the fluid pressure in said system,

effected by inder, comprising, a valve4 chest, a valve; rthereln, and provided with admission ports controlled by saidvalve, and with discharge ports, a pipe adapted for connectinglhe valve, chest With said fluid system, a pistony 1n sa1dvcyl1nder, operat1ve `connection hetWeen said piston and the motor speed-controlling device, a valve stemrrigidly Asecured `which the free end of said pivotedlever en-` (rages, and means for disengaging-said lever, from said stops to permit excessive variation of the fluid pressure in said `fluid system, said means comprisingnan 4extension bar slidably mounted at the free end of saidlever, a spring applied thereto adapted to maintain the same nori'nally extended, .a cam, engagement of which vvith said, extension bar to retract the same is adaptedtobe a predetermined excessivemovement of said level-,beyond its movement -in maintaining normal control, anda kshunt 'cam adapted to maintain said extension bar retracted until its free end' has passed the normalcontrolstops onthe stenrof the valve `of the double-,acting cylinder,r an emergency stop on said valve stemjadapted tov be engaged by the free end of'ksaidflever when'extended` and means for effect-ingr ,-Q engagement of said lever with the normal control stops as said lever moves away` from saidemergency stops, said means,compris-l ing a suitable cam. surface formedy on. the normal control stop adjacent to said emergency stop. s

In testimony, that I claim the foregoing as my invention, I aflix my signature lin 28th day of August, A. D. 1908.l l

C. HARRY BONG. Vitnesses: u

, f K. A. COSTELLO,

M. V. MCGRATH.

presence of tvvo subscribing witnesses, this 

